Targeted removals and monitoring can help manage lionfish in Mediterranean

Groups of up to 18 volunteer SCUBA divers worked together to remove lionfish from the Marine Protected Area of Cape Greco (Credit University of Plymouth)

Targeted removals can be effective in suppressing the number of invasive lionfish found within protected coastlines around the Mediterranean Sea.

However, if they are to really be successful they need to be combined with better long-term monitoring by communities and conservationists to ensure their timing and location achieve the best results.

Those are the key findings of a new study, one of the first of its kind to examine the effectiveness of targeted lionfish removals from both an ecological and a socio-economic perspective.

Scientists working as part of the European Union-funded RELIONMED project teamed up with specially trained divers and citizen scientists to conduct a series of removal events and surveys over a six-month period.

Focused on three marine protected areas on the coast of Cyprus – the Zenobia shipwreck off Larnaca, and two popular diving sites within the Cape Greco Marine Protected Area – between 35 and 119 lionfish were removed per day by divers at each protected site.

Those sites were then monitored by divers over several months which showed that, in some locations, population numbers recovered within three months.

As a result, scientists writing in the Aquatic Conservation: Marine and Freshwater Ecosystems journal, say such initiatives can undoubtedly be effective in reducing population numbers.

However, they need to be carefully coordinated to ensure the lionfish are eliminated – including the potential for them to be overfished – in a manner that doesn’t have other negative impacts on other species.

The research was led by researchers at the University of Plymouth (UK) and Marine and Environmental Research (MER) Lab (Cyprus). They have been collaborating for several years as part of the €1.6million RELIONMED project, which aims to assess the history of the lionfish invasion in Cyprus, and identify ways to minimise its future impact.

Periklis Kleitou, Research Assistant on the RELIONMED project and lead author on the study, said:

“There are many changes happening within the Mediterranean as a consequence of human activity and climate change. The lionfish invasion has been one notable consequence of that, but this study shows there is a potential – albeit complex and challenging – solution. One of the interesting aspects of this work has been to see how the training improved divers’ knowledge of the issue, and motivated them to support management efforts. That is without doubt something we can, and should, build on to ensure lionfish populations are managed sustainably now and in the future.”

<p>RELIONMED targeted removals event</p>

Periklis Kleitou and volunteer divers during a removals event in 2019

Lionfish first began populating the Mediterranean less than a decade ago, as a result of expansion in the Suez Canal and ocean warming.

The species was first recorded off the coast of Cyprus in 2014, with a lack of common predators – coupled with lionfish’s breeding habits – meaning numbers have increased dramatically with sightings everywhere from coastlines to the deep seas.

The first targeted removals took place in May 2019, having proved successful in areas previously invaded by lionfish, and they have been combined with education programmes around the threats the species pose and how it might be managed sustainably.

Professor of Marine Biology Jason Hall-Spencer, senior author on the study, said:

“This study demonstrates the complex nature of managing and protecting our ocean. Marine Protected Areas are undoubtedly beneficial in terms of biodiversity on the seabed, but they are also vulnerable to the spread of invasive species. Our ongoing research is showing the pivotal role citizens can play in monitoring and managing lionfish, but permitting divers to remove these fish using scuba gear will need to be applied with caution and strictly regulated to avoid illegal fishing. If implemented correctly, removal events could protect selected areas from the adverse effects of lionfish, while at the same time help to establish rich and deep links with local communities, strengthening responsibility and surveillance at corporate and social levels, and stimulating public environmental awareness.”

Read more about Professor Hall-Spencer's research

<p>Jason Hall-Spencer</p>

Professor Jason Hall-Spencer

  • The full study – Kleitou et al: Regular monitoring and targeted removals can control lionfish in Mediterranean Marine Protected Areas – is published in Aquatic Conservation: Marine and Freshwater Ecosystems.

<p>University of Plymouth student and co-author Francesco Cecconi collecting data about the efficiency of lionfish competition using underwater visual census (Credit University of Plymouth)<br></p>
<p>Undergraduate students and PhD candidates are among those to have taken part in removal events</p>
Undergraduate students and PhD candidates are among those to have taken part in removal events
<p>Researchers and students from the University of Plymouth during a lionfish removal event in June 2021 (Credit University of Plymouth)<br></p>
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